void TestarrayQueue_new_is_empty(
CuTest * tc
)
{
void *qu = aqueue_new(10, 1);
CuAssertTrue(tc, aqueue_is_empty(qu));
aqueue_free(qu);
}
void TestarrayQueue_offer_adds_new_item(
CuTest * tc
)
{
char *item = "testitem";
void *qu = aqueue_new(10, 8);
aqueue_offer(qu, item);
CuAssertTrue(tc, 1 == aqueue_count(qu));
aqueue_free(qu);
}
void TestarrayQueue_offer_and_poll_item(
CuTest * tc
)
{
char *item = "testitem";
void *qu = aqueue_new(10, 8);
aqueue_offer(qu, item);
CuAssertTrue(tc, 0 == strncmp(item, aqueue_peek(qu), 8));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
aqueue_free(qu);
}
void TestarrayQueue_cant_poll_with_no_contents(
CuTest * tc
)
{
char *item = "testitem";
void *qu = aqueue_new(10, 8);
aqueue_offer(qu, item);
CuAssertTrue(tc, 0 == strncmp(item, aqueue_peek(qu), 8));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
CuAssertTrue(tc, 0 == aqueue_count(qu));
aqueue_free(qu);
}
void TestarrayQueue_cannot_offer_over_capacity(
CuTest * tc
)
{
char *item = "testitem";
void *qu = aqueue_new(1, 8);
aqueue_offer(qu, item);
CuAssertTrue(tc, -1 == aqueue_offer(qu, item));
CuAssertTrue(tc, 1 == aqueue_count(qu));
aqueue_free(qu);
}
void TestarrayQueue_empty_empties_queue(
CuTest * tc
)
{
char *item = "testitem";
void *qu = aqueue_new(10, 8);
aqueue_offer(qu, item);
aqueue_empty(qu);
CuAssertTrue(tc, 0 == aqueue_count(qu));
CuAssertTrue(tc, aqueue_is_empty(qu));
aqueue_free(qu);
}
void TestarrayQueue_peek_gets_head(
CuTest * tc
)
{
char *item1 = "testitem1";
char *item2 = "testitem2";
void *qu = aqueue_new(10, 9);
aqueue_offer(qu, item1);
aqueue_offer(qu, item2);
CuAssertTrue(tc, 0 == strncmp(item1, aqueue_peek(qu), 9));
aqueue_free(qu);
}
void exampleArrayQueue()
{
ArrayQueue* Q = newArrayQueue(8);
// A queue with strings
aqueue_offer(Q, "First");
aqueue_offer(Q, "In");
aqueue_offer(Q, "First");
aqueue_offer(Q, "Out.");
// Peek at the head of the queue
printf("%s\n", (char*)aqueue_peek(Q));
// Traverse through the queue polling each string
while (!aqueue_isEmpty(Q))
printf("%s ", (char*)aqueue_poll(Q));
printf("\n");
// A queue with integers, primitive data types require some trickyness
aqueue_clear(Q);
int x[] = {1, 2};
int y = 3;
aqueue_offer(Q, &x[0]);
aqueue_offer(Q, &x[1]);
aqueue_offer(Q, &y);
while (!aqueue_isEmpty(Q))
// You first need to cast it using (int*) and since its a pointer to
// an integer you need to get the value of the pointer using *
// You could similarly use:
// int* z = queue_poll(Q);
// printf("%d ", *z);
printf("%d ", *((int*)aqueue_poll(Q)));
printf("\n");
// Fill it up and resize it if an offer has failed
char* letters[] = {"A", "B", "C", "D", "E", "F", "G", "H", "I", "J", "K"};
for (y = 0; y < 11; y++)
aqueue_offerf(Q, letters[y]);
while (!aqueue_isEmpty(Q))
printf("%s ", (char*)aqueue_poll(Q));
printf("\n");
// This will clear the queue of any nodes and pool them and then free
// the queue itself from memory
aqueue_free(Q);
}
void TestarrayQueue_fifo(
CuTest * tc
)
{
char *item = "testitem1", *item2 = "testitem2";
void *qu = aqueue_new(10, 9);
aqueue_offer(qu, item);
aqueue_offer(qu, item2);
CuAssertTrue(tc, 0 == strncmp(item, aqueue_peek(qu), 9));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
CuAssertTrue(tc, 0 == strncmp(item2, aqueue_peek(qu), 9));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
aqueue_free(qu);
}
void TestarrayQueue_offerensure_ensures_capacity(
CuTest * tc
)
{
char *item = "testitem";
arrayqueue_t *qu = aqueue_new(1, 8);
CuAssertTrue(tc, 0 == aqueue_offerensure(&qu, item));
CuAssertTrue(tc, 1 == aqueue_count(qu));
CuAssertTrue(tc, 1 == aqueue_size(qu));
CuAssertTrue(tc, 0 == aqueue_offerensure(&qu, item));
CuAssertTrue(tc, 2 == aqueue_count(qu));
CuAssertTrue(tc, 2 == aqueue_size(qu));
aqueue_free(qu);
}
void TestarrayQueue_iterator_iterates(
CuTest * tc
)
{
char *item = "testitem";
char *item2 = "TESTITEM";
arrayqueue_t *qu = aqueue_new(1, 8);
CuAssertTrue(tc, 0 == aqueue_offerensure(&qu, item));
CuAssertTrue(tc, 0 == aqueue_offerensure(&qu, item2));
arrayqueue_iter_t iter;
aqueue_iter(qu, &iter);
CuAssertTrue(tc, 1 == aqueue_iter_has_next(qu, &iter));
CuAssertTrue(tc, 0 == strncmp(item, aqueue_iter_next(qu, &iter), 8));
CuAssertTrue(tc, 1 == aqueue_iter_has_next(qu, &iter));
CuAssertTrue(tc, 0 == strncmp(item2, aqueue_iter_next(qu, &iter), 8));
CuAssertTrue(tc, 0 == aqueue_iter_has_next(qu, &iter));
aqueue_free(qu);
}
void TestarrayQueue_poll_offer_past_boundary(
CuTest * tc
)
{
char *item1 = "testitem1";
char *item2 = "testitem2";
char *item3 = "testitem3";
void *qu = aqueue_new(2, 9);
aqueue_offer(qu, item1);
aqueue_offer(qu, item2);
CuAssertTrue(tc, 0 == strncmp(item1, aqueue_peek(qu), 9));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
CuAssertTrue(tc, 0 == strncmp(item2, aqueue_peek(qu), 9));
aqueue_offer(qu, item3);
CuAssertTrue(tc, 0 == strncmp(item2, aqueue_peek(qu), 9));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
CuAssertTrue(tc, 0 == strncmp(item3, aqueue_peek(qu), 9));
CuAssertTrue(tc, 0 == aqueue_poll(qu));
aqueue_free(qu);
}
static int __load(dqueue_t* me)
{
unsigned int pos = 0;
while (pos < me->size)
{
int e, start_pos;
header_t h;
start_pos = pos;
/* 1. read first header */
e = read(me->fd, &h, sizeof(header_t));
if (e < (int)sizeof(header_t))
return -1;
pos += sizeof(header_t);
/* check header is ok */
if (h.type != HEADER || 0 != memcmp(h.stamp, STAMP, strlen(STAMP)))
continue;
unsigned int check_id = h.id;
/* 2. read 2nd header */
/* put on sizeof(header_t) offset */
size_t offset = sizeof(header_t) - ntohl(h.len) % sizeof(header_t);
e = lseek(me->fd, ntohl(h.len) + offset, SEEK_CUR);
pos += ntohl(h.len);
e = read(me->fd, &h, sizeof(header_t));
if (e < (int)sizeof(header_t))
{
perror("couldn't read file\n");
return -1;
}
pos += __padding_required(ntohl(h.len));
pos += sizeof(header_t);
if (h.id != check_id || ntohl(h.type) != FOOTER || 0 !=
memcmp(h.stamp, STAMP, strlen(STAMP)))
continue;
/* found a valid queue item */
item_t item;
item.pos = start_pos;
item.len = ntohl(h.len);
item.space_used = ntohl(h.len) + ITEM_METADATA_SIZE +
__padding_required(ntohl(h.len));
item.id = h.id;
aqueue_offerensure((void*)&me->items, &item);
h.id = ntohl(h.id);
}
if (0 == aqueue_count(me->items))
return 0;
/* get lowest */
unsigned int lowest_id = UINT_MAX;
unsigned int highest_id = 0;
arrayqueue_iter_t iter;
for (aqueue_iter(me->items, &iter);
aqueue_iter_has_next(me->items, &iter); )
{
item_t* item = aqueue_iter_next(me->items, &iter);
if (item->id < lowest_id)
{
lowest_id = item->id;
me->head = item->pos;
}
/* set tail */
if (highest_id < item->id)
{
highest_id = item->id;
me->tail = item->pos + item->len + ITEM_METADATA_SIZE +
__padding_required(item->len);
me->item_id = item->id + 1;
}
}
arrayqueue_t* stowaway = aqueue_new(16, sizeof(item_t));
/* put lowest at front of queue */
while (!aqueue_is_empty(me->items))
{
item_t* item = aqueue_peek(me->items);
if (item->id == lowest_id)
break;
aqueue_offerensure(&stowaway, aqueue_peek(me->items));
aqueue_poll(me->items);
}
/* empty out stowaway */
while (!aqueue_is_empty(stowaway))
{
aqueue_offerensure((void*)&me->items, aqueue_peek(stowaway));
aqueue_poll(stowaway);
}
aqueue_free(stowaway);
return 0;
}
